Antarctic ice alga Chlamydomonas sp. ICE-L can endure extreme low temperature and high salinity stress under freezing conditions. To elucidate the molecular acclimation mechanisms using gene expression analysis, the expression stabilities of ten housekeeping genes of Chlamydomonas sp. ICE-L during freezing stress were analyzed. Some discrepancies were detected in the ranking of the candidate reference genes between geNorm and NormFinder programs, but there was substantial agreement between the groups of genes with the most and the least stable expression. RPL19 was ranked as the best candidate reference genes. Pairwise variation (V) analysis indicated the combination of two reference genes was sufficient for qRT-PCR data normalization under the experimental conditions. Considering the co-regulation between RPL19 and RPL32 (the most stable gene pairs given by geNorm program), we propose that the mean data rendered by RPL19 and GAPDH (the most stable gene pairs given by NormFinder program) be used to normalize gene expression values in Chlamydomonas sp. ICE-L more accurately. The example of FAD3 gene expression calculation demonstrated the importance of selecting an appropriate category and number of reference genes to achieve an accurate and reliable normalization of gene expression during freeze acclimation in Chlamydomonas sp. ICE-L.
To improve the rate
of formation of carbon dioxide hydrates, tetra-
n
-butylammonium
bromide (TBAB) was compounded with different
concentrations of sodium dodecyl sulfate (SDS) and nanographite, and
the effects of these mixtures on carbon dioxide hydrate formation
were studied. The addition of TBAB alone, as well as mixtures of TBAB
and SDS or nanographite, shortened the induced nucleation time, and
the induction times of the TBAB–2.5 g/L nanographite and TBAB–0.24
g/L SDS systems were the shortest and longest, respectively. Further,
on mixing TBAB and SDS, the induced nucleation time first increased
and then decreased with the increase in the SDS concentration. When
TBAB and nanographite were mixed together, the induced nucleation
time first decreased, then increased, and again decreased with the
increase in the nanographite concentration. In addition, the hydrate
formation rate and conversion were highest for the TBAB–0.48
g/L SDS system and lowest for the TBAB–0.06 g/L SDS system;
in the first 35 min, from the end of gas charging, the TBAB–10
g/L nanographite and TBAB–5 g/L nanographite systems yielded
the highest and lowest hydrate formation rates and conversions, respectively.
For the composite systems, obvious effects were observed in the initial
stages of reaction, but the effects varied over the course of the
reaction. Overall, the use of different accelerators resulted in little
differences in the total production, conversion, and formation rate
of carbon dioxide hydrates over the course of the reaction.
We present design concepts for optical modulators without using any equalization or bespoke fabrication techniques. The demonstrated silicon photonics transmitter can operate at 100 Gbps OOK, while the power efficiency of the driver is 2.03 pJ/bit.
Bryophytes are the dominant vegetation in the Antarctic continent. They have suffered more unpleasant ultraviolet radiation due to the Antarctic ozone layer destruction. However, it remains unclear about the molecular mechanism of Antarctic moss acclimation to UV-B light. Here, the transcriptomics and metabolomics approaches were conducted to uncover transcriptional and metabolic profiling of the Antarctic moss Leptobryum pyriforme under UV-B radiation. Totally, 67,290 unigenes with N50 length of 2,055 bp were assembled. Of them, 1,594 unigenes were significantly up-regulated and 3353 unigenes were markedly down-regulated under UV-B radiation. These differentially expressed genes (DEGs) involved in UV-B signaling, flavonoid biosynthesis, ROS scavenging, and DNA repair. In addition, a total of 531 metabolites were detected, while flavonoids and anthocyanins accounted for 10.36% of the total compounds. There were 49 upregulated metabolites and 41 downregulated metabolites under UV-B radiation. Flavonoids were the most significantly changed metabolites. qPCR analysis showed that UVR8-COP1-HY5 signaling pathway genes and photolyase genes (i.e., LpUVR3, LpPHR1, and LpDPL) were significantly up-regulated under UV-B light. In addition, the expression levels of JA signaling pathway-related genes (i.e., OPR and JAZ) and flavonoid biosynthesis-related genes were also significantly increased under UV-B radiation. The integrative data analysis showed that UVR8-mediated signaling, jasmonate signaling, flavonoid biosynthesis pathway and DNA repair system might contribute to L. pyriforme acclimating to UV-B radiation. Therefore, these findings present a novel knowledge for understanding the adaption of Antarctic moss to polar environments and provide a foundation for assessing the impact of global climate change on Antarctic land plants.
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